NetSafety UVU-140A User manual

Type
User manual

This manual is also suitable for

UVU-140A AND UVU-140-AR
UNITIZED ULTRAVIOLET FIRE
DETECTOR
USER MANUAL
Part Number: MAN-0002-00 Rev. 1
Copyright © 2001 Net Safety Monitoring INC.
Printed in Canada
This manual is provided for informational purposes only. Although the information contained in this manual is
believed to be accurate, it could include technical inaccuracies or typographical errors. Changes are, therefore,
periodically made to the information within this document and incorporated without notice into subsequent revisions of
the manual. Net Safety Monitoring INC. assumes no responsibility for any errors that may be contained within this
manual.
This manual is a guide for the use of a Unitized UV Fire Detector and the data and procedures contained within this
document have been verified and are believed to be adequate for the intended use of the detector. If the detector or
procedures are used for purposes other than as described in the manual without receiving prior confirmation of validity
or suitability, Net Safety Monitoring Inc. does not guarantee the results and assumes no obligation or liability.
No part of this manual may be copied, disseminated or distributed without the express written consent of Net Safety
Monitoring Inc.
Net Safety Monitoring Inc. products, are carefully designed and manufactured from high quality components and can
be expected to provide many years of trouble free service. Each product is thoroughly tested, inspected and calibrated
prior to shipment. Failures can occur which are beyond the control of the manufacturer. Failures can be minimized by
adhering to the operating and maintenance instructions herein. Where the absolute greatest of reliability is required,
redundancy should be designed into the system.
Net Safety Monitoring Inc., warrants its sensors and detectors against defective parts and workmanship for a period of
24 months from date of purchase and other electronic assemblies for 36 months from date of purchase.
No other warranties or liability, expressed or implied, will be honoured by Net Safety Monitoring INC
Contact Net Safety Monitoring Inc. or an authorized distributor for details.
TABLE of CONTENTS
CHAPTER 1 TECHNICAL INFORMATION .......................................1
Introduction................................................................................ 1
Features .................................................................................. 1
Spectral Sensitivity Range .................................................................... 1
Figure 1 - Various Spectral Distributions ............................................... 1
Specifications .............................................................................. 2
Applications ............................................................................... 3
CHAPTER 2 INSTALLATION .................................................4
Whats in the package ..................................................................... 4
Mounting the Detector ....................................................................... 4
Cone of vision ....................................................................... 4
Figure 2 - Detector cone of vision ..................................................... 4
Range ............................................................................. 4
Environmental Factors ................................................................ 4
False Alarms ........................................................................ 5
Position and Density of Detectors ........................................................ 5
Figure 3 - Detector with Swivel Mount .................................................. 6
Figure 4 - Detector Dimensions ........................................................ 7
Figure 5 - Swivel Mount Dimensions ................................................... 7
Figure 6 - JB4-UV-T Junction Box Side View ............................................. 7
Figure 7 - JB4-UV-T Junction Box Top View ............................................. 7
General Wiring Requirements ................................................................. 8
Wiring Diagram for UVU-140-A .......................................................... 9
Figure 8 - Wiring for UVU-140-A ........................................................ 9
Wiring Diagram for UVU- 140-AR ....................................................... 10
Figure 9 - Wiring for UVU-140-AR ..................................................... 10
Detector Settings .......................................................................... 11
System Sensitivity ................................................................... 11
Figure 10 - DIP switch operation and location ........................................... 11
Table 1 - Detector Sensitivity Settings ................................................... 11
System Time Delay .................................................................. 11
Table 2 - Alarm Response Delay Settings ................................................ 11
Table 3 - Coil and Relay Status ........................................................ 12
CHAPTER 3 START UP AND TEST ...........................................12
Start up Procedure ......................................................................... 12
Check Out Procedure ................................................................ 12
Automatic vi Test.................................................................... 12
Test Procedures: .................................................................... 13
Manual Check Procedure .................................................................... 13
CHAPTER 4 NORMAL OPERATION...........................................14
Normal Operation ......................................................................... 14
Fire Condition ............................................................................. 14
Current & Relay Output Conditions ............................................................ 14
Table 4 - Current & Relay Output Conditions .............................................. 14
CHAPTER 5 MAINTENANCE ................................................15
Routine Maintenance ....................................................................... 15
Troubleshooting ........................................................................... 15
Cleaning Viewing Window and Reflector ................................................. 15
Repositioning vi Adjustment Allen Screw ................................................. 15
Device Repair and Return ................................................................... 16
Appendix A Net Safety Monitoring Inc. Electrostatic Sensitive Device Handling
Procedure ...............................................................17
Appendix B Common Ultra-Violet Absorbing Gases . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
Appendix C Wire Resistance In Ohms ........................................19
1
Figure 1 - Various Spectral Distributions
CHAPTER 1 TECHNICAL INFORMATION
Introduction
The UVU-140-A & UVU-140-AR fire detectors provide fast, reliable flame detection in a wide variety of
applications. The automatic visual integrity (vi) feature allows for a continuous check of optical surfaces,
sensitivity and electronic circuitry of the unitized fire detector. Fire and fault identification are accomplished by
the use of specific current output levels and relay contacts (UVU-140-AR only). The fire detectors are housed in
explosion-proof enclosures that are designed to meet most national and international standards. They are
available in anodized aluminum or optional stainless steel. The UVU-140-A & UVU-140-AR fire detectors are
typically mounted with a swivel mounting assembly (see Figure 3).
The UVU-140-AR unitized fire detector connects to a JBR-T-ASSY which consists of a junction box, two relays
and a terminal connector board. The JBR-T-ASSY has large, easy access, spring tension terminals and a user
selectable dip switch which allows the operator to select relay and coil status conditions (see Table 3).
Features
< Instantaneous response to ultraviolet radiation
< Automatic and manual visual integrity (vi) testing
< Adjustable sensitivity and time delay
< All automatic test functions are performed with the system on-line
< Alarm and automatic fault identification indicated by a 4 to 20mA output
< Relay outputs for fire and fault identification (UVU-140-AR only)
< The fault relay is normally energized and non-latching (UVU-140-AR only)
Spectral Sensitivity Range
The UVU-140-A & UVU-140-AR fire detectors respond to radiation wavelengths of 185 to 260 nanometres
(1850 to 2600 angstroms). Figure 1 illustrates the range of sensitivity and compares this range to other forms of
radiation. Note that UV radiation reaching the earth from the sun does not extend into the sensitivity range of the
detector. Nor does radiation from normal artificial lighting, such as fluorescent, mercury vapour and incandescent
lamps.
2
Specifications
< Operating Voltage Range:
24Vdc nominal: 10.5 to 32Vdc
If a fuse is rated in line with the main power supply, it should be a 1A slow-blow type. If a power
supply with current limiting is used it should have a rating appropriate for the inrush current
required by the product.
< Power Consumption (UVU-140-A):
1.92 Watts nominal 2.4 Watts maximum @ 24Vdc
80mA nominal 100mA maximum @ 24Vdc
Inrush Current 250 mA for 2.5 ms
< Power Consumption (UVU-140-AR):
2.4 Watts nominal (fault relay energized) @ 24Vdc
2.9 Watts maximum (fire & fault relays energized) @ 24Vdc
100mA nominal @ 24Vdc 120mA maximum @ 24Vdc
Inrush Current 380 mA for 2.5 ms
< Temperature Range:
Operating: -40ºC to +85ºC (-40/F to +185/F)
Storage: -55ºC to +125ºC (-67/F to +257/F)
< Dimensions:
Refer to Figures 4, 5, 6 and 7
< Detector Enclosure Materials:
NEMA 4X anodized copper-free aluminum or stainless steel (optional)
< Shipping Weight (approximate):
2 lbs (0.9 kilograms) aluminum
< Certification:
CSA, NRTL/C, NEMA 4X certified for hazardous locations
Class 1, Division 1, Groups B, C and D
IEC approval Ex d IIB+H2 T5 (Class 1, Zone 1, Groups IIB+H2 T5)
< Spectral Sensitivity Range:
The detectors respond to UV radiation over the range of 185 to 260 nanometres
(1850 to 2600 angstroms)
< Cone of Vision:
120 degree cone of vision when measured in accordance with NFPA 72 guidelines
< Current Outputs:
4-20mA DC into a maximum external loop resistance of 600 Ohms at 10.5 to 32Vdc
< Relay Contacts: (Available on UVU-140-AR only)
3
1A @ 30Vdc 0.5A @ 125Vac
< Response Time:
Response to a saturating (high intensity) UV source is typically 10 milliseconds
Alarm response time is programmable
< Time Delay Settings:
DIP switch selectable 3, 4, 5 or 7 seconds
< Sensitivity Settings:
DIP switch selectable 8, 16, 24 or 32 counts per second
< Humidity Range:
0 to 100% relative humidity
Applications
The UVU-140-A & UVU-140-AR fire detectors respond instantly to ultraviolet radiation emitted by a flame.
These devices are designed for use in hazardous locations and are suitable for use in outdoor applications.
Typical applications for UV detection systems
< around highly combustible materials
< when instantaneous response to flame is needed or where automated fire protection is required
< protection of large capital investments
Petroleum Products Handling
< petroleum loading terminals
< offshore platforms
< pipeline stations
< tank farms
< refineries
< engine rooms
Gaseous Fuel Handling
< butane and propane loading and storage
< pipeline compressor stations
< gas gathering facilities
< LNG loading, transfer and storage
< hydrogen
< gas turbines
Other Processes
< paint spray booths
< chemical and petrochemical production
< powder coating booths
Automated fire protection systems also have applications in any manufacturing or research facility where the
potential of fire may be low to moderate, but the losses due to a fire would be high.
4
Figure 2 - Detector cone of vision
CHAPTER 2 INSTALLATION
What’s in the package
Remove all the components from the packing box(s) carefully; check components against the packing list. Inspect
all components for obvious damage and broken/loose parts. Notify the carrier and distributor immediately if
damage is found or parts are missing.
Mounting the Detector
There are many factors that you should be aware of when positioning your fire detector(s).
Cone of vision
The UVU-140-A & UVU-140-AR fire detectors have a nominal 120 degree cone of vision when measured in
accordance to NFPA 72 guidelines. Figure 2 shows the cone of vision and detector response to a UV source at
various distances.
Range
The practical application distance is up to about 80 feet (25 metres). The distance is directly related to the
intensity of the ultraviolet radiation source. Programming the UVU-140-A & UVU-140-AR fire detectors to
require a high count rate results in low system sensitivity.
Environmental Factors
Airborne contamination such as steam , oil mist, ice build up and smoke can impair the detection capabilities of
UV fire detectors and should be avoided.
Since the UVU -140-A & UVU-140-AR fire detectors are designed to detect fires by responding to the ultra-
violet (UV) radiation they emit, it is very important to be aware of UV absorbing gases that may be present
5
between the detector and the sources of potential fires. Small concentrations of these types of gases may not
absorb enough UV radiation to cause a problem, but when higher concentrations of these gases are present the
detectors may become blind as not enough ultra-violet radiation can reach them to activate an alarm. Moving
detectors closer to the probable source of fire and increasing the sensitivity of the detector can help to overcome
this problem in some cases. For a list of some common UV absorbing chemical vapours see Appendix B.
False Alarms
Arc Welding, long duration lightning flashes, cracked mercury lamps, cracked halogen lamps, and X-rays may
cause false alarms and should be avoided.
NOTE:
Ultraviolet detectors are sensitive to arc welding and if this type of radiation can be expected, nuisance
alarms must be controlled through proper application including careful positioning and shielding of
the detectors. Some applications may require a UV/IR system.
CAUTION:
Caution must be exercised if the detection system is turned off, as the hazardous area will not be
protected. .
Lightning strikes can trigger the detector but this can be solved by pointing the sensor cone of vision below the
horizon and setting the time delay to 7 seconds.
Cracked mercury or halogen lamps in the vicinity of the fire detector should be replaced as soon as they are
discovered.
UV radiation other than that produced by an actual fire is referred to as “background UV”. An example of a high
level of background UV could be a flare stack situated outside of a building. The UV radiation produced by this
flare may be detected when a door to the building is opened. Windows or other reflective surfaces may also cause
unusually high levels of UV radiation to enter the building from the flare. In a situation like this, the fire
detection system response must be carefully checked and the sensitivity level adjusted high enough, so that this
“background UV” will not cause false alarms.
UV fire detectors respond to radiation other than ultraviolet. X-rays can activate the detector and are often used
in industrial inspection. It may be necessary to disable the system when X-ray is conducted nearby.
Position and Density of Detectors
The UVU-140-A & UVU-140-AR fire detectors have a nominal 120 degree cone of vision when measured in
accordance to NFPA 72 guidelines. In an application such as a loading dock with a ceiling height of 25 feet (7.5
metres) where it is desired to have complete detector coverage at floor level and a detector is mounted 2 feet (0.6
metres) from the ceiling and pointed straight down, the distance from the detector to the designated level would
be 23 feet (7 metres). The detector has a 120 degree cone of vision and would cover a circular area 80 feet (24
metres) in diameter at floor level. A sketch of the area to be covered will indicate the number of detectors
required to monitor the area. Detectors should be placed as close as practical to the expected fire hazard.
NOTE:
Do not mount UV detectors close to the ceiling of enclosed buildings if smoke might accumulate
before the break-out of flame. It is preferable to mount the detectors on walls a few feet (about 1
6
Figure 3 - Detector with Swivel Mount
metre) below the ceiling where they may respond before being obscured by smoke. Consider
shortening time delay settings when smoke is expected to accumulate during a fire. If dense smoke is
likely to accumulate prior to flame (as in an electrical fire), supplement UV detectors with other
protection.
The detector should be mounted in a low vibration area be easy to access for cleaning purposes and should not
have glass or plexiglass windows between the device and the potential fire. Locate detectors to ensure an
unobstructed view of the area to be monitored. To minimize dirt accumulation around the vi surfaces, mount the
detectors so that the internal vi source tube is on top. The silver external reflector should be placed directly
over the vi source tube. Refer to Figures 4 and 5 for the detector and swivel mount dimensions. Refer to Figure
3 for a diagram of the assembled detector and swivel mount assembly.
7
Figure 7 - JB4-UV-T Junction Box
Top View
Figure 5 - Swivel Mount
Dimensions
Figure 4 - Detector Dimensions
Figure 6 - JB4-UV-T Junction Box Side
View
8
General Wiring Requirements
NOTE:
The wiring procedures in this manual are intended to ensure proper functioning of the device under
normal conditions. However, due to the many variations in wiring codes and regulations, total
compliance to these ordinances cannot be guaranteed. Be certain that all wiring complies with
applicable regulations that relate to the installation of electrical equipment in a hazardous area. If in
doubt, consult a qualified official before wiring the system.
Shielded cable is highly recommended for power input and signal wires to protect against interference caused by
extraneous electrical 'noise'. Recommended detector cable is four conductor, shielded, 18 AWG rated 300V. If
the wiring cable is installed in conduit, the conduit must not be used for wiring to other electrical equipment.
Detectors can be located up to 2000 feet (600 metres) from the controller if 16 AWG shielded conductor is used.
The UVU-140-A & UVU-140-AR are factory sealed complete with four feet of four conductor,
18 AWG cable rated 300V. No seal is required.
9
Figure 8 - Wiring for UVU-140-A
Wiring Diagram for UVU-140-A
10
Figure 9 - Wiring for UVU-140-AR
Wiring Diagram for UVU-140-AR
NOTE:
If the 4-20 mA signal isnot used connect it to (-) - 24Vdc “systemcommon”
11
Figure 10 - DIP switch operation
and location
Detector Settings
System Sensitivity
The UV tube count rate generated by different fires at the same distance is unpredictable. Generally if a fire
doubles in size, the tube response is increased by about 60 percent. The UVU-140-A & UVU-140-AR detectors
have selectable sensitivity settings which allow for various applications regardless of the severity of the hazard
and the action required if a fire occurs. The system can be adjusted to various sensitivity levels by setting the
detectors to respond at a pre-determined detector count rate. The count rate is dependent upon the intensity of the
ultraviolet radiation reaching the detector, which in turn depends on the type of fuel, temperature, flame size,
distance from the detector and concentration of UV absorbing vapours present. Setting the UVU-140-A & UVU-
140-AR detectors to respond to a low count rate results in high system sensitivity. Adjustments are made by
setting the DIP switch on the bottom of the internal module. The factory settings are 5 second time delay at 24
counts per second (cps), the fire relay is de-energized and latching.
Table 1 - Detector Sensitivity Settings
SYSTEM SENSITIVITY SETTINGS
Switch 1 Switch 2
8 Counts (cps) ON ON
16 Counts (cps) ON OFF
24 Counts (cps) OFF ON
32 Counts (cps) OFF OFF
System Time Delay
Time delay can be set via dip switches located on the bottom of the electronics module . See Figure 7.
Table 2 - Alarm Response Delay Settings
SYSTEM TIME DELAY SETTINGS
Switch 3 Switch 4
3 Seconds ON ON
4 Seconds ON OFF
5 Seconds OFF ON
7 Seconds OFF OFF
Coil and Relay Settings
The DIP switch is located in the JBR-T assembly.
12
Table 3 - Coil and Relay Status
COIL AND RELAY SETTINGS TABLE
Switch 1 Switch 2
De-energized and
non-latching
ON ON
Energized and non-
latching
ON OFF
De-energized and
latching
OFF ON
Energized and
latching
OFF OFF
CHAPTER 3 START UP AND TEST
Start up Procedure
NOTE:
Be sure that the detector is correctly aimed at the potential hazard and that no obstructions interfere
with its line of vision. UV absorbing gases should not exist between the detector and the potential
hazard.
Check Out Procedure
CAUTION:
When testing the system, be sure to secure all output devices to prevent unwanted activation of equipment
and remember to place the same devices back into service when the check-out is complete.
Automatic vi Test
NOTE:
The automatic vi system continuously monitors the operation of the detector. However, it is important
that the system be manually checked using the MANUAL check procedure (described on page 12) on a
regular basis. The whole system (including external equipment) should be checked periodically using a
UV test lamp to simulate a fire.
The detector performs an automatic vi test every 30 seconds. If the automatic vi test fails, the
UVU-140-A or UVU-140-AR current output will decrease to 2mA indicating a dirty window or other obstruction
in front of the detector tube. The UVU-140-A or UVU-140-AR current output will remain at 2mA until the
problem is corrected. If the obstruction was only temporary, the detector will return to normal operation with a
current output of 4mA the next time the automatic vi test is successful.
13
Manual vi Test Procedure
The detector has a manual vi input. The manual vi test is performed by connecting this input to the system power
for the duration of the test. This can be done by connecting a momentary contact pushbutton between system
power and the manual vi input, and then holding the pushbutton to perform the test.
NOTE:
The manual vi feature is optional on the UVU-140-A (If not used, leave unconnected or tied to system
common).
CAUTION:
The detector will stay in the manual vi test mode as long as the manual vi input is held at the system
power voltage. During the manual vi test all other detector functions are disabled. It is therefore
imperative that, after this test is performed, the manual vi test input be released.
Test Procedures:
1. Connect the manual vi test input (UVU-140-A) terminal to system power by either a direct connection or a
manual push button.
NOTE:
On UVU-140-AR detectors, connect the MVI signal output terminal (on the JBR-T relay box) to system
power by either a direct connection or a manual push button.
CAUTION:
DO NOT connect system power to the blue wire on the UVU-140-AR detector. Doing so will damage
the fire detector.
2. Hold the manual vi input at this voltage for at least two seconds.
3. Two seconds after the test has commenced, the detector will have a current output that corresponds to the
quality of the vi reading obtained (see Table 4).
4. Release the manual vi test input. The detector will immediately return to normal operation if a vi fault is
not present.
5. If a vi fault is present, the current output will indicate 2mA.
Manual Check Procedure
The whole system should be checked periodically with a UV test lamp to make sure that the detectors are not
obstructed, that the area ‘seen’ by the detector has not changed and that there is no fault in the vi circuit.
CAUTION:
Secure all output loads connected to the fire detector to prevent unwanted activation.
1. Direct the UV test lamp into the detector viewing window.
14
The UVU-140-A or UVU-140-AR current output will change with the amount of ultraviolet light being
detected (see Table 4).
2. Turn off the UV test lamp.
3. Repeat steps 1 & 2 for all detectors in the system.
4. After all detectors have been checked, return the system to the normal operating mode.
5. Restore power to output loads or remove any mechanical blocking devices.
CHAPTER 4 NORMAL OPERATION
Normal Operation
In normal operation the detector outputs 4mA.
Fire Condition
In a fire condition the detector outputs 20mA.
Current & Relay Output Conditions
The 4-20mA DC current output transmits system information to other devices. The current output can only be
wired for non-isolated operation. The current output can have a maximum external loop resistance of 600 Ohms at
10.5 to 32Vdc. Table 4 shows the current output levels for various conditions.
Table 4 - Current & Relay Output Conditions
Current Output Situation
0mA Shorted signal output or loss of power
1mA Internal power fault or system power out of range. Fault relay
activated on UVU-140-AR
2mA Automatic or manual vi test failure. Fault relay activated on
UVU-140-AR
4mA Normal operation
6mA Background UV source
10mA Manual vi test (adequate) clean all optical surfaces.
11mA Manual vi test (good) optical surfaces are moderately clean
12mA Manual vi test (excellent) all optical surfaces are clean
16mA Instant alarm
20mA Fire condition detected. Fire relay activated on
UVU-140-AR
15
CHAPTER 5 MAINTENANCE
Routine Maintenance
The UVU-140-A & UVU-140-AR fire detectors require no periodic calibration. To maintain maximum sensitivity,
the viewing window and reflector should be cleaned on a routine basis depending on the type and amount of
contaminants in the area.
The rubber o-ring on the detector housing is used to ensure the detector is watertight. The housing should be
opened periodically and the o-ring inspected for breaks, cracks or dryness. To test the o-ring, remove it from the
detector housing and stretch it slightly. If cracks are visible, the o-ring should be replaced. If it feels dry to the
touch, a thin coating of lubricant should be applied. When re-installing the o-ring, be sure that it is properly seated
in the groove on the housing.
The o-ring must be properly installed and in good condition to prevent water from entering the detector and
causing failure. The life expectancy of rubber o-rings varies, depending on the type and amount of contaminants
present in the area. The person who maintains the system must rely on experience and common sense to
determine how frequently the rings should be inspected. A coating of lubricant should also be applied to the
enclosure threads before reassembling the detector to help prevent moisture from entering.
CAUTION:
The o-ring should be lubricated with polyalphaolefin grease, such as GRS-450 made by CPI
Engineering. Silicone based lubricants should never be used if catalytic type combustible gas sensors
are being used in conjunction with the UV detectors, since silicone lubricant on or near the
combustible gas sensor will cause permanent damage to the sensing element.
Troubleshooting
The automatic vi (visual integrity) feature continuously checks the detector for correct response. If a problem is
detected, Table 4 shows the current output levels for various situations.
Cleaning Viewing Window and Reflector
When cleaning the viewing window and reflector use a clean, lint free cloth and the cleaning solution provided
with the detector. Use only recommended cleaning solutions, as some cleaners can leave a residue that can block
UV radiation.
Repositioning vi Adjustment Allen Screw
The UV sensor module has an adjustable Allen Screw. This adjustable Allen Screw controls the amount of light
released from the vi source during visual integrity testing. To increase the amount of UV light released, turn the
Allen Screw counter-clockwise, this will open the orifice and allow more light to pass through. An ideal setting
with a clean lens and reflector would yield an analog output of 12mA during the manual vi test, which represents
an excellent response level when performing a manual vi check.
16
Device Repair and Return
The UVU-140-A and UVU-140-AR fire detectors are not designed to be repaired by the customer in the field. If a
problem should develop, first carefully check for proper wiring and programming. If it is determined that the
problem is caused by an electrical malfunction, the unit must be returned to the factory for repair.
Net Safety Monitoring Inc. encourages its distributors to make advance replacement units available to the user
during the warranty period. This allows Net Safety Monitoring Inc. to take time to repair the unit completely while
users keep their operations running with the advance replacement unit.
Prior to returning items, contact the nearest distribution office so that an RMI (Return Material Identification)
number can be assigned. A written statement describing the malfunction must accompany the returned item to
simplify finding the cause of the failure and reduce the time and cost of the repair. Pack the item to protect it from
damage and use an anti-static bag or aluminum-backed cardboard as protection from electrostatic discharge.
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NetSafety UVU-140A User manual

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